Abstract
Peroxisomal proteins are synthesized in the cytoplasm and post-translationally translocated into the organelle. The role of chaperones and protein folding in peroxisomal protein transport is still unclear. Translocation of proteins into mitochondria requires that precursor proteins assume an extended conformation; cytosolic chaperones are thought to help maintain this conformation. In contrast, peroxisomal protein import does not require unfolding of the targeted protein. However, the molecular chaperones Hsp70 and Hsp40 may be important for translocation. We present several lines of evidence that show that plant peroxisomal protein import is enhanced by chaperones. First, peroxisomes isolated from heat-shocked pumpkin seedling tissues exhibited increased protein import relative to control peroxisomes. Second, antibodies raised against wheat germ cytosolic Hsp70 and Escherichia coli Hsp90 inhibited import of the peroxisomal protein isocitrate lyase. To our knowledge, this is the first time that Hsp90 has been directly implicated in a protein transport event. Third, peroxisomal proteins were immunoprecipitated by wheat germ Hsp70 antibodies. We also present results that suggest that the efficiency of peroxisomal protein import is influenced by the structure of the targeted protein; monomeric isocitrate lyase was imported more efficiently than oligomeric isocitrate lyase. Taken together, these data demonstrate that the assembly state of peroxisomal proteins and the chaperones that may mediate those states are both important for efficient peroxisomal protein import.
Highlights
Peroxisomes are nearly ubiquitous, single membrane-bound organelles that are responsible for the -oxidation of fatty acids and for hydrogen peroxide degradation [1]
An Hsp70 colocalizes with peroxisomal targeting signal (PTS)-containing proteins and with peroxisomal membranes, and antibodies directed against bovine cytosolic Hsp73 inhibit peroxisomal protein import [27]
Heat Shock Leads to Increased Peroxisomal Protein Import—To examine the role of chaperones in peroxisomal protein import, we tested the import competence of glyoxysomes isolated from heat-shocked pumpkin seedlings
Summary
Heat-shock protein; PAGE, polyacrylamide gel electrophoresis; Pex, peroxin; PTS, peroxisomal targeting signal; PTS1, peroxisomal targeting signal type 1; PTS2, peroxisomal targeting signal type 2. We developed an in vitro protein import assay to determine the molecular mechanisms of peroxisomal protein import [36, 53]. We used the in vitro assay to investigate the role of protein folding in peroxisomal protein import in two ways: 1) indirectly, by analyzing the effects of chaperone enrichment (through heat shock) and chaperone depletion (through immunodepletion) on the import of isocitrate lyase into isolated glyoxysomes, and 2) directly, by assessing the impact of the assembly state of isocitrate lyase on its import efficiency. Our results demonstrate that the folding and/or assembly state of isocitrate lyase is important for its efficient transport across the peroxisomal membrane
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